---
title: 0008 Dataplane
description: Global Unkey Deployment Architecture
date: 2025-01-26
authors:
  - Andreas Thomas
---


We need to design a globally distributed architecture for Unkey where the dataplane can operate independently of the primary database for improved availability.

## Goals

- Achieve 100% dataplane availability independent of primary database
- Provide fast access to dynamic data across global regions
- Propagate data across the system quickly
- Minimize load on expensive storage
- Enable efficient cache invalidation
- Can run on any cloud or on premise

## Options

### 1. Direct S3 + In-Memory Cache with SWR

```ascii
┌─────────────────────┐     ┌─────────┐
│ Gateway             │     │         │
│ ┌───────────────┐   │────►│   S3    │
│ │ Memory Cache  │   │     │         │
│ └───────────────┘   │     │         │
└─────────────────────┘     └─────────┘
```

#### Pros
- Simple, straightforward design
- Low architectural complexity

#### Cons
- Cache invalidation requires communication with all machines or really low TTLs (\<10s)
- Inefficient cache refresh patterns
- High load on S3 due to concurrent SWR requests from multiple machines

### 2. S3 + In-Memory Cache with Gossip Protocol

```ascii
┌─────────────────────┐
│ Gateway             │
│ ┌───────────────┐   │──┐
│ │ Memory Cache  │   │  │
│ └───────────────┘   │  │
└─────────────────────┘  │
         ▲               │
         │ Gossip        │    ┌─────────┐
         ▼               ├───►│         │
┌─────────────────────┐  │    │   S3    │
│ Gateway             │  │    │         │
│ ┌───────────────┐   │──┘    └─────────┘
│ │ Memory Cache  │   │
│ └───────────────┘   │
└─────────────────────┘
```

If we had global fast and efficient eviction, we could set much higher TTLs.

#### Pros
- Efficient cache invalidation through gossip, allowing higher TTLs
- Reduced load on primary storage
- Only need to notify one node for changes

#### Cons
- Need to implement ordering mechanism (timestamps/Lamport clocks)
- More complex system architecture
- Global gossip cluster management overhead

### 3. S3 + Dedicated Cache Layer

```ascii
┌─────────────────┐
│ Gateway 1       │───┐
└─────────────────┘   │
                      │
┌─────────────────┐   │    ┌────────────┐
│ Gateway 2       │───┼───►│   Load     │    ┌────────────┐
└─────────────────┘   │    │  Balancer  │───►│ Cache      │──┐
                      │    │            │    │ Node 1     │  │
┌─────────────────┐   │    │            │    └────────────┘  │
│ Gateway 3       │───┤    │            │                    │    ┌─────────┐
└─────────────────┘   │    │            │                    ├───►│   S3    │
                      ├───►│            │    ┌────────────┐  │    └─────────┘
┌─────────────────┐   │    │            │───►│ Cache      │──┘
│ Gateway 4       │───┤    │            │    │ Node 2     │
└─────────────────┘   │    └────────────┘    └────────────┘
                      │
┌─────────────────┐   │
│ Gateway n       │───┘
└─────────────────┘
```

Gateways still use an in-memory SWR cache. The cache nodes help reduce the cost
and latency of S3, but will likely have the same freshness/staleness as the
gateways. TBD..

Everything here, except the S3 bucket, would be duplicated per region.

#### Pros
- Better cache retention due to less frequent reboots
- Optional global eviction via gossip/kafka later
- Maybe we only need 1 S3 region now instead of replicating it

#### Cons
- Additional infrastructure to manage

### 4. DynamoDB Global Tables + Caching


Option 4A: Direct DynamoDB + Gateway Memory Cache
- Each gateway maintains a local memory SWR cache with a TTL of 10s
- DynamoDB serves as source of truth
- Automatic multi-region replication handled by AWS

```ascii
┌─────────────────────┐     ┌──────────────────┐
│ Gateway (US)        │     │  DynamoDB        │
│ ┌───────────────┐   │────►│  (US-WEST-1)     │
│ │ Memory Cache  │   │     │                  │
│ └───────────────┘   │     └──────────────────┘
└─────────────────────┘            ▲
                                   │
                                   │ Replication
                                   │
┌─────────────────────┐            ▼
│ Gateway (EU)        │     ┌──────────────────┐
│ ┌───────────────┐   │────►│  DynamoDB        │
│ │ Memory Cache  │   │     │  (EU-WEST-1)     │
│ └───────────────┘   │     │                  │
└─────────────────────┘     └──────────────────┘
```


Option 4B: With Dedicated Cache Layer

A dedicated cache layer could be added to reduce the load on DynamoDB and improve read performance as well as cost.
Whether this actually saves money is debatable, we'll have to try.
These cache nodes would be dumb, they only cache reads for 10s and don't have any manual eviction possibilities.

```ascii
┌─────────────────┐
│ Gateway 1       │───┐
└─────────────────┘   │
                      │    ┌────────────┐
┌─────────────────┐   │    │   Load     │    ┌────────────┐
│ Gateway 2       │───┼───►│  Balancer  │───►│ Cache      │──┐
└─────────────────┘   │    │            │    │ Node 1     │  │    ┌──────────────┐
                      │    │            │    └────────────┘  ├───►│  DynamoDB    │
                      │    │            │                    │    │  Global      │
                      │    │            │    ┌────────────┐  │    │  Tables      │
┌─────────────────┐   │    │            │───►│ Cache      │──┘    └──────────────┘
│ Gateway n       │───┘    └────────────┘    │ Node 2     │
└─────────────────┘                          └────────────┘
```

#### Pros
- Built-in multi-region replication with strong consistency
- No need to manage complex replication logic
- Lower latency reads from local region
- Automatic conflict resolution
- Serverless and fully managed by AWS
- Cheaper for small reads than S3
- 99.999% availability (s3 only has 99.99%)


#### Cons
- Vendor lock-in to AWS -> we need to have an abstraction
- Higher storage cost compared to S3 due to replication
- Cost of replication
- Replication lag is controlled by AWS, not us
- More expensive for large \>13kb reads than S3
